Title :
Limits of bias based assist methods in nano-scale 6T SRAM
Author :
Mann, RandyW ; Nalam, Satyanand ; Wang, Jiajing ; Calhoun, Benton H.
Author_Institution :
Univ. of Virginia, Charlottesville, VA, USA
Abstract :
Reduced device dimensions and operating voltages that accompany technology scaling have led to increased design challenges with each successive technology node. Large scale 6T SRAM arrays beyond 65 nm will increasingly rely on assist methods to overcome the functional limitations imposed by increased variation, reduced overdrive and the inherent read stability/write margin trade off. Factors such as reliability, leakage and data retention establish the boundary conditions for the maximum voltage bias permitted for a given circuit assist approach. These constraints set an upper limit on the potential yield improvement that can be obtained for a given assist method and limit the minimum operation voltage (Vmin). By application of this set of constraints, we show that the read assist limit contour (ALC) in the margin/delay space can provide insight into the ultimate limits for the nano-scale CMOS 6T SRAM.
Keywords :
CMOS memory circuits; SRAM chips; integrated circuit reliability; nanoelectronics; assist methods; data retention; inherent read stability; maximum voltage bias; nanoscale CMOS 6T SRAM; read assist limit contour; technology scaling; write margin trade off; yield improvement; Automatic logic units; Boundary conditions; Circuit stability; Large-scale systems; Latches; Nanoscale devices; Random access memory; Threshold voltage; Variable structure systems; Very large scale integration;
Conference_Titel :
Quality Electronic Design (ISQED), 2010 11th International Symposium on
Conference_Location :
San Jose, CA
Print_ISBN :
978-1-4244-6454-8
DOI :
10.1109/ISQED.2010.5450413
